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The Practice of Statistics (4th Edition) - Starnes, Yates, Moore Chapter 8: Estimating with Confidence Key Vocabulary: point estimator point estimate confidence interval margin of error interval confidence level random normal 8.1 independent four step process level C confidence interval degrees of freedom standard error one -sample z interval t distribution t-procedures one-sample t interval robust Confidence Intervals: The Basics (pp.615-643) 1. A point estimator is a statistic that… 2. The value of the point estimator statistic is called a ____________________ and it is our "best guess" at the value of the _____________________. 3. Summarize the facts about sampling distributions learned in chapter 7: Shape Center Spread The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 4. In statistics, what is meant by a 95% confidence interval? 5. A confidence interval takes the form of : “estimate margin of error” where: estimate = margin of error = 6. Define a level C confidence interval. 7. What information does the margin of error provide? 8. Sketch and label a 95% confidence interval for the standard normal curve. 9. In a sampling distribution of x , why is the interval of numbers between x 2s called a 95% confidence interval? 10. Sketch and label a 90% confidence interval for the standard normal curve. 11. Interpret a Confidence level: "To say that we are 95% confident is shorthand for ….. 12. Explain how to interpret a Confidence interval. 13. Does the confidence level tell us the chance that a particular confidence interval captures the population parameter? If not, what does it tell us? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 14. What does the critical value depend on? 15. Write the form for calculating a confidence interval as shown on page 478. 16. Why do we want high confidence and a small margin of error? 17. Explain the two conditions when the margin of error gets smaller. 18. State the three conditions for constructing a confidence interval for p or . Random Normal Independent 19. What are the two important reminders for constructing and interpreting confidence intervals? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 8.2 Estimating a Population Proportion (pp.484-494) 1. In statistics, what is meant by a sample proportion: p̂ ? 2. Give the mean and standard deviation for the sampling distribution of p̂ ? 3. How does the standard deviation differ to to standard error for the sampling distribution of p̂ ? 4. Describe the sampling distribution of a sample proportion p̂ as learned in section 7.2. Shape Center Spread 5. Define standard error. 6. In general what is meant by the standard error of a statistic? 7. How do you calculate the standard error of p̂ ? 8. What is the formula for a one-sample z interval for a population proportion? Describe how to construct a level C confidence interval for a population proportion. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 9. Describe the four step process on how to contruct and interpret a confidence interval. State Plan Do Conclude 10. What formula is used to determine the sample size necessary for a given margin of error? 11. What conditions must be met in order to use z procedures for inference about a proportion? 12. What does z* represent? 13. What is the value of z* for a 95% confidence interval? Include a sketch. 14. What is the value of z* for a 90% confidence interval? Include a sketch. 15. What is the value of z* for a 99% confidence interval? Include a sketch. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 8.3 Estimating a Population Mean (pp.499-515) 1. What is the formula for a one-sample z interval for a population mean? Describe how to construct a level C confidence interval for a population mean. 2. What is the formula for the margin of error of the confidence interval for the population mean ? 3. How can you arrange to have both high confidence and a small margin of error? 4. Describe the three steps for choosing a sample size for a desired margin of error when estimating . 5. What happens to the margin of error as z* gets smaller? Does this result in a higher or lower confidence level? 6. What happens to the margin of error, as gets smaller? 7. What happens to the margin of error, as n gets larger? By how many times must the sample size n increase in order to cut the margin of error in half? 8. The formula used to determine the sample size n that will yield a confidence interval for a population mean with a specified margin of error m is z * s n £ ME . Solve for n. 9. It is the size of the ________________ that determines the margin of error. The size of the ____________________ does not influence the sample size we need. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 10. Complete the Check Your Undertanding on page 501. 11. How do you calculate the degrees of freedom for a t distribution? 12. What happens to the t distribution as the degrees of freedom increase? 13. How would you construct a t distribution? 14. Describe the differences between a standard normal distribution and a t distribution. 15. Describe the similarities between a standard normal distribution and a t distribution. 16. What is the formula for the standard deviation of the sampling distribution of the sample mean x ? 17. What is the standard error of the sample mean x ? 19. Describe how to construct the one-sample t interval for a population mean? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 20. Summarize the three conditions for inference about a population mean: Random Normal Independent 21. Inferences for proportions use ______ and inferences for means use _____. 22. What does it mean if an inference procedure is robust? 23. If the size of the SRS is less than 15, when can we use t procedures on the data? 24. If the size of the SRS is at least 15, when can we use t procedures on the data? 25. If the size of the SRS is at least 30, when can we use t procedures on the data? 26. Summarize the details of the four step procedure for estimating p: State Plan Do Conclude The Practice of Statistics (4th Edition) - Starnes, Yates, Moore Chapter 9: Testing a Claim Key Vocabulary: Significance test Null Hypothesis Alternative Hypotheses One sided alternative Two sided alternative p-value level significance level one-sample z test test statistic one sample t test paired data four-step process statistically significant Type I Error Type II Error Power Degrees of freedom t-distribution paired t procedures 9.1 Significance Tests: The Basics (pp.528-543) 1. What is a significance test? 2. What is the difference between a null and an alternative hypothesis? What notation is used for each? 3. Explain the differences between one-sided and two-sided hypotheses. How can you decide which one to use? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 4. What form does the null and alternative hypothesis take in significance testing? 5. Hypotheses always refer to a ___________, not to a ______________. 6. In statistics, what is meant by the P-value? What does a P-value measure? 7. If a P-value is small, what do we conclude about the null hypothesis? 8. If a P-value is large, what do we conclude about the null hypothesis? 9. What are common errors students make in their conclusions of P-values? 10. On what evidence would we reject the null hypothesis? 11. On what evidence would we accept the null hypothesis (ie. fail to reject the null hypothesis)? 12. What is meant by a significance level? 13. Explain what it means to say that data are statistically significant. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 14. How small should the P-value be in order to claim that a result is statistically significant? 15. When using a fixed significance level to draw a conclusion in a statistical test what can be concluded when the P value is and ? 16. What two circumstances guide us in choosing a level of significance? 17. What is a Type I Error? 18. What is a Type II Error ? 19. Which error is worse, Type I or Type II? 20. Complete the Check Your Understanding on page 539. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 21. What is the relationship between the significance level and the probability of Type I Error? 22. How can we reduce the probability of a Type I error? 23. What is meant by the power of a significance test? 24. What is the relationship between Power and Type II Error? Will you be expected to calculate the power on the AP exam? 25. What four factors affect the power of a test? Why does this matter? 26. Describe the three influences that must be verified before deciding on how many observations are needed in a study. Significance Level Practical Importance Power The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 9.2 Tests about a Population Proportion (pp.549-561) 1. Summarize the three conditions that must be checked before carrying out significance tests: 2. State the general form of the “test statistic”. 3. What does the test statistic measure? Is this formula on the AP exam formula sheet? 4. Describe the four step process for signifigance tests. Explain what is required at each step. State Plan Do Conclude 5. What test statistic is used when testing for a population proportion? Is this on the formula sheet? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 6. Summarize the one-sample z test for a proportion and sketch the three possible H a ’s. Choose… To test… Find… Use this test… If Normaility is not met 7. What happens when the data does not support H a ? 8. If asked to carry out a signifigance test and there is no provided, what is recommended? 9. Can you use confidence intervals to decide between two hypotheses? What is the advantage to using confidence intervals for this purpose? 10. Why don't we always use confidence intervals? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 9.3 Tests about a Population Mean (pp.565-585) 1. What are the three conditions for conducting a significance test for a population mean? 2. What test statistic do we use when testing a population mean? Is this formula on the AP exam formula sheet? 3. How do you calculate p-values using the t-distributions? 4. What do you do if the degrees of freedom you need is not in table b? 5. How do you find p-values when carrying out a signifigance test about a population mean on the calculator? 6. For a one-sample t- test for a population mean, state: H0 the three possible H a ’s (with small sketches to illustrate) What is the t test statistic and how is it interpreted? Under what conditions can this test be used… The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 7. In terms of rejecting the hypothesis H 0 , how is a significance test related to a confidence interval on the same population? 8. Use your calculator to find the p value (tcdf command) for the example Healthy Streams. What is that p-value? 9. When using technology for the "DO" part of the four step process, what is recommended on page 573? 10. Work through the Juicy Pineapple example on page 574. Use a calculator to find the exact P-value. Why is tcdf mulitplied by 2? 11. Why is the difference between using the calculator versus Table b when finding the pvalue in this example? 12. Do we have encough evidence to reject H 0 in the Juicy Pineapple example? Explain. 13. Read the Check Your Understanding on page 577 and answer questions 1 and 2. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 14. What is paired data? 15. What information would lead us to apply a paired t-test to a study, and what would be the statistic of interest? 16. In the example, Is Caffeine Dependence Real, explain the difference in the "Do" procedures for this example versus the Juicy Pineapple example. 17. Describe the four points to be aware of when interpreting signifigance tests. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore Chapter 10: Comparing Two Populations or Groups Key Vocabulary: difference between two proportions two sample z interval for proportions two sample z test for difference between two proportions two sample z statistic two sample t statistic pooled combined sample proportion standard error randomization distribution paired t-test two sample t test for means two sample t interval for means difference between two means pooled two sample t statistic The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 10.1 Comparing Two Proportions (pp. 604-618) 1. Summarize the three properties of a sampling distribution of a sample proportion: Shape Center Spread 2. What are the shape, center, and spread of the sampling distribution of pˆ1 pˆ 2 ? Provide the formulas for the mean and standard deviation. Shape Center Spread 3. What conditions need to be met for the sampling distribution of pˆ1 pˆ 2 ? 4. Give the formula for the standard error when calculating a confidence interval for pˆ1 pˆ 2 , and define each variable in the equation. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 5. What is the confidence interval for pˆ1 pˆ 2 ? 6. What conditions must be met in order to use the Two-sample z Interval for a Difference between Two Proportions? Random Normal Independent 8. Use the example, Teens and Adults on Social Networking Sites, to outline how to construct and interpret a confidence interval for the difference between two proportions, p1 p2 . 9. State the null hypothesis for a two proportion significance test. 10. What does pˆ c represent, and how is it calculated? 11. Why do we pool the sample proportions? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 12. Give the formula for the two-proportion z-statistic, and define each variable in the equation. 13. Is this on the formula sheet? What does the test statistic measure? 14. State and use diagrams to illustrate the three possible alternative hypotheses for a two proportion z-test. 15. What are the conditions for conducting a two-sample z test for a difference between proportions? 16. How are these different than the conditions for a one-sample z interval for p? 17. Describe the randomization distribution. 18. What must you be careful about when defining parameters in experiments? How can this be avoided? 19. Can you use your calculator for the Do step? Are there any drawbacks? 20. What are the calculator commands for the two-sample z test and interval for pˆ1 pˆ 2 ? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 10.2 Comparing Two Means (pp.627-648) 1. Summarize the three properties of a sampling distribution of a sample mean: Shape Center Spread 2. What are the shape, center, and spread of the sampling distribution of x1 x2 ? Give the formula for the mean and standard deviation. Shape Center Spread 3. What are the conditions for the sampling distribution of x1 x2 ? 4. Give the formula for the two-sample t-statistic, and define each variable in the equation. 5. Is this on the formula sheet? What does it measure? 6. What is the standard error of x1 x2 ? Is this on the formula sheet? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 7. What distribution does the two-sample t statistic have? 8. Why do we use a t statistic rather than a z statistic? 9. Without using technology, how do you estimate the degrees of freedom when using twosample t-procedures? 10. How do you calculate the confidence interval for 1 2 ? 11. In a two-sample t interval problem, what conditions must be met for comparing two means? 12. What are the conditions for conducting a two-sample t test for 1 2 ? 13. Draw a sketch of the three possible scenarios for the alternative hypothesis. 14. Describe the Normal Condition when using the two sample t procedures. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 15. What calculator commands are used for a two-sample t test and interval for 1 2 ? 16. How do you proceed when using two-sample t procedures to check the Normal Condition in the following cases: Sample size less than 15 Sample size at least 15 Large samples 17. In a two-sample problem, must/should the two sample sizes be equal? 18. When doing two-sample t procedures, should we pool the data to estimate a common standard deviation? Is there any benefit? Are there any risks? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore Chapter 11: Inference for Distributions of Categorical Data Key Vocabulary: one way table chi-square test for goodness of fit chi-square statistic expected count observed count chi square distribution degrees of freedom chi-square distribution components of chi-square cell counts r x c table chi square test for homogeneity chi square test for association/ independence 11.1 Chi-Square Goodness of Fit Test (pp.678-690) 1. What is a one-way table? 2. What is a chi-square goodness-of-fit test? 3. What is the difference between the notation X2 and 2? 4. State the general form for the null hypotheses for a 2 goodness of fit test. 5. State the general form for the alternative hypotheses for a 2 goodness of fit test. 6. How do you calculate the expected counts for a chi-square goodness-of-fit test? How should you round the answer for the expected counts? 7. What is the shape of a chi-square distribution? What happens to the shape as the degrees of freedom increases? (Illustrate with a diagram) The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 8. Describe the center and spread of the chi-square distributions. 9. What is the chi-square test statistic? Is it on the formula sheet? What does it measure? 10. How many degrees of freedom does the chi-square distribution have? 11. What is the rule of thumb for all expected counts in a chi-square goodness of fit test? 12. What conditions must be met in order to use the goodness of fit test? 12. How do you calculate p-values using chi-square distributions? 14. Can you use your calculator to conduct a chi-square goodness-of-fit test? If yes, what are the calculator commands? 15.What is meant by a component of chi-square? 16. What does the largest component of chi-square signify? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 17.Why is it necessary to perform follow-up analysis to a chi-square test? 14.2 Inference for Relationships (pp.696-721) 1. What is the hypothesis for a test of homogeneity? 2. Describe the complications with multiple comparisons? How are they overcome? 3. Explain how to calculate the expected counts for a test that compares the distribution of a categorical variable in multiple groups or populations. 4. Write the formula for the Chi-square test statistic? Is this on the AP Exam formula sheet? 5. What does the Chi-square test statistic measure? 6. What information is contained in a two-way table for a Chi-square test? 7. How many degrees of freedom does a chi-square test for a two-way table with r rows and c columns have? 8. What requirements must be checked before carrying out a Chi-square test for Homogeneity? 9. State the null and alternative hypothesis for the Chi-square test for Homogeneity? 10. Can you use your calculators to do a Chi-square test of homogeneity? If yes, what are the calculator commands? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 11. Summarize how to carry out a Chi-square Test for Homogeneity of Populations: 12. Explain how and when to conduct a follow-up analysis for a test of homogeneity? 13. What does it mean if two variables have an association? 14. What does it mean if two variables are independent? 15. State the null and alternative hypotheses for a Chi-square test for Association/Independence. 16. How is a test of association/independence different than a test of homogeneity? 17. How do you calculate expected counts for a test of association/independence? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 18. Summarize how to carry out a Chi-square Test for Association/Independence: 19. What are the conditions for a test of association/independence? 20. When should you use a chi-square test and when should you use a two-sample z test? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore Chapter 12: More about Regression Key Vocabulary: sample regression line true regression line t interval for slope standard error of slope t test for slope standardized test statistic standard error exponential model power model logarithmic model 12.1 Inference for Linear Regression (pp.739-757) 1. What is the difference between a sample regression line and population (true) regression line? 2. Explain the sampling distribution of b? 3. Give the equation for the true regression line, and state what each component of the equation represents. 4. Summarize the conditions for regression inference: L I N E R The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 5. Explain how to check the conditions for regression inference: L I N E R 6. Record the formula for the standard error of the slope? Define the variables. 7. What is the formula for the t-interval of the slope of a least-squares regression line? Is this on the AP exam formula sheet? 8. What is the formula for the t-test for the slope of the population regression line? Is this on the AP exam formula sheet? 9. Describe the distribution of the standardized test statistic b . SE b 10. What is the formula for constructing a confidence interval for a slope? The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 11. What calculator commands are used to get the value of t*? 12. Can you use your calculator to conduct a test and confidence interval for the slope? 12.2 Transforming to Achieve Linearity (pp.765-783) 1. What does it mean to transform data? 2. What is a power model? 3. Give three examples of power models? 4. Aside from power transformations, how can you linearize an association that follows a power model in the form y = axp? 5. Describe a logarithmic model. Give two examples. 6. Describe an exponential model. Give two examples. 7. Describe the two methods used to linearize a relationship that follows an exponential model. 8. Show how to use logarithms to transform the data given by y = axp to produce a linear relationship. The Practice of Statistics (4th Edition) - Starnes, Yates, Moore 9. The big idea using logarithms to transform data is that "if a variable grows __________________, its __________________ grow linearly." 10. Describe how to achieve linearity from a power model as explained on page 777. 11. After using a logarithm transformation, what does the scatter plot of the data show?